请别再问Spring Bean的生命周期了
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日月更替,周而复始,大自然中的任何生命都有着它的周期,比如蚂蚁的寿命只有几年,而乌龟的寿命却有几十年甚至上百年。
同理,在Spring框架中,Bean对象也有着它的生命周期,然而对于Bean对象的生命周期,我们并不是很清楚,因为Spring帮助我们管理了Bean对象,所以,掌握Bean的生命周期,并知晓Spring在每个阶段为我们做了哪些事情是非常有必要的。
Bean的生命周期
对于一个Bean的生命周期,其实非常简单,无非就是从创建对象到销毁的过程,但是Spring作为一个可扩展的框架,其在Bean的创建和销毁过程中加入了非常多的扩展点,这也是为什么Spring能够蓬勃发展至今的一个原因。Bean的生命周期大体可以总结为以下几个阶段:
Bean的定义 Bean的注册 Bean的创建 Bean的注入 Bean的初始化 Bean的销毁
Bean的定义、注册及创建过程
其中Bean的定义非常简单,它是由我们来完成的,例如在Spring的配置文件中配置一个Bean:
<bean id="user" class="com.wwj.entity.User">
<property name="name" value="zs"/>
<property name="age" value="22"/>
bean>
又或者是一个注解:
@Component
public class User{
private String name;
private Integer age;
}
此时一个Bean就定义好了,接下来Spring在启动的时候就会将这些定义好的Bean注册起来,对于配置文件启动,Spring会解析配置文件中的配置进行Bean的注册,具体体现在refresh方法:
@Override
public void refresh() throws BeansException, IllegalStateException {
synchronized (this.startupShutdownMonitor) {
// Prepare this context for refreshing.
prepareRefresh();
// Tell the subclass to refresh the internal bean factory.
ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory();
// Prepare the bean factory for use in this context.
prepareBeanFactory(beanFactory);
// Allows post-processing of the bean factory in context subclasses.
postProcessBeanFactory(beanFactory);
// Invoke factory processors registered as beans in the context.
invokeBeanFactoryPostProcessors(beanFactory);
// Register bean processors that intercept bean creation.
registerBeanPostProcessors(beanFactory);
// Initialize message source for this context.
initMessageSource();
// Initialize event multicaster for this context.
initApplicationEventMulticaster();
// Initialize other special beans in specific context subclasses.
onRefresh();
// Check for listener beans and register them.
registerListeners();
// Instantiate all remaining (non-lazy-init) singletons. 实例化Bean
finishBeanFactoryInitialization(beanFactory);
// Last step: publish corresponding event.
finishRefresh();
}
}
其中finishBeanFactoryInitialization(beanFactory)
方法就是用来实例化所有的单例Bean,该方法源码如下:
protected void finishBeanFactoryInitialization(ConfigurableListableBeanFactory beanFactory) {
// Initialize conversion service for this context.
if (beanFactory.containsBean(CONVERSION_SERVICE_BEAN_NAME) &&
beanFactory.isTypeMatch(CONVERSION_SERVICE_BEAN_NAME, ConversionService.class)) {
beanFactory.setConversionService(
beanFactory.getBean(CONVERSION_SERVICE_BEAN_NAME, ConversionService.class));
}
// Register a default embedded value resolver if no bean post-processor
// (such as a PropertyPlaceholderConfigurer bean) registered any before:
// at this point, primarily for resolution in annotation attribute values.
if (!beanFactory.hasEmbeddedValueResolver()) {
beanFactory.addEmbeddedValueResolver(strVal -> getEnvironment().resolvePlaceholders(strVal));
}
// Initialize LoadTimeWeaverAware beans early to allow for registering their transformers early.
String[] weaverAwareNames = beanFactory.getBeanNamesForType(LoadTimeWeaverAware.class, false, false);
for (String weaverAwareName : weaverAwareNames) {
getBean(weaverAwareName);
}
// Stop using the temporary ClassLoader for type matching.
beanFactory.setTempClassLoader(null);
// Allow for caching all bean definition metadata, not expecting further changes.
beanFactory.freezeConfiguration();
// Instantiate all remaining (non-lazy-init) singletons.
beanFactory.preInstantiateSingletons();
}
我们不具体分析所有的方法,只看重要的部分,其中beanFactory.preInstantiateSingletons()
方法实例化了所有的单例Bean,既然知道了创建Bean的地方,那么Spring是如何知道需要创建哪些Bean的呢?换句话说,配置文件是在哪里进行解析的呢?我们回到最初的refresh方法,其中有一个ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory()
,它就是来解析配置文件的,源码如下:
protected ConfigurableListableBeanFactory obtainFreshBeanFactory() {
refreshBeanFactory();
ConfigurableListableBeanFactory beanFactory = getBeanFactory();
if (logger.isDebugEnabled()) {
logger.debug("Bean factory for " + getDisplayName() + ": " + beanFactory);
}
return beanFactory;
}
它调用了refreshBeanFactory()
方法:
@Override
protected final void refreshBeanFactory() throws BeansException {
if (hasBeanFactory()) {
destroyBeans();
closeBeanFactory();
}
try {
DefaultListableBeanFactory beanFactory = createBeanFactory();
beanFactory.setSerializationId(getId());
customizeBeanFactory(beanFactory);
loadBeanDefinitions(beanFactory);
synchronized (this.beanFactoryMonitor) {
this.beanFactory = beanFactory;
}
}
catch (IOException ex) {
throw new ApplicationContextException("I/O error parsing bean definition source for " + getDisplayName(), ex);
}
}
该方法又调用了loadBeanDefinitions(beanFactory)
方法:
@Override
protected void loadBeanDefinitions(DefaultListableBeanFactory beanFactory) throws BeansException, IOException {
// Create a new XmlBeanDefinitionReader for the given BeanFactory.
XmlBeanDefinitionReader beanDefinitionReader = new XmlBeanDefinitionReader(beanFactory);
// Configure the bean definition reader with this context's
// resource loading environment.
beanDefinitionReader.setEnvironment(this.getEnvironment());
beanDefinitionReader.setResourceLoader(this);
beanDefinitionReader.setEntityResolver(new ResourceEntityResolver(this));
// Allow a subclass to provide custom initialization of the reader,
// then proceed with actually loading the bean definitions.
initBeanDefinitionReader(beanDefinitionReader);
loadBeanDefinitions(beanDefinitionReader);
}
接着调用loadBeanDefinitions(beanDefinitionReader)
方法:
protected void loadBeanDefinitions(XmlBeanDefinitionReader reader) throws BeansException, IOException {
Resource[] configResources = getConfigResources();
if (configResources != null) {
reader.loadBeanDefinitions(configResources);
}
String[] configLocations = getConfigLocations();
if (configLocations != null) {
reader.loadBeanDefinitions(configLocations);
}
}
到这里就差不多了,调用栈比较深,就不继续往下看了,这里就是在解析xml文件并创建Bean实例。
Bean的注入过程
在创建对象过程中,我们还需要对对象的属性进行赋值,那么Spring是如何实现的呢?
protected Object doCreateBean(String beanName, RootBeanDefinition mbd, @Nullable Object[] args) throws BeanCreationException {
BeanWrapper instanceWrapper = null;
if (mbd.isSingleton()) {
instanceWrapper = (BeanWrapper)this.factoryBeanInstanceCache.remove(beanName);
}
if (instanceWrapper == null) {
instanceWrapper = this.createBeanInstance(beanName, mbd, args);
}
......
try {
// 看这里
this.populateBean(beanName, mbd, instanceWrapper);
exposedObject = this.initializeBean(beanName, exposedObject, mbd);
} catch (Throwable var18) {
}
}
this.populateBean(beanName, mbd, instanceWrapper)
方法就是用来实现属性赋值的:
protected void populateBean(String beanName, RootBeanDefinition mbd, @Nullable BeanWrapper bw) {
if (bw == null) {
if (mbd.hasPropertyValues()) {
throw new BeanCreationException(
mbd.getResourceDescription(), beanName, "Cannot apply property values to null instance");
}
else {
// Skip property population phase for null instance.
return;
}
}
// Give any InstantiationAwareBeanPostProcessors the opportunity to modify the
// state of the bean before properties are set. This can be used, for example,
// to support styles of field injection.
if (!mbd.isSynthetic() && hasInstantiationAwareBeanPostProcessors()) {
for (BeanPostProcessor bp : getBeanPostProcessors()) {
if (bp instanceof InstantiationAwareBeanPostProcessor) {
InstantiationAwareBeanPostProcessor ibp = (InstantiationAwareBeanPostProcessor) bp;
if (!ibp.postProcessAfterInstantiation(bw.getWrappedInstance(), beanName)) {
return;
}
}
}
}
PropertyValues pvs = (mbd.hasPropertyValues() ? mbd.getPropertyValues() : null);
int resolvedAutowireMode = mbd.getResolvedAutowireMode();
if (resolvedAutowireMode == AUTOWIRE_BY_NAME || resolvedAutowireMode == AUTOWIRE_BY_TYPE) {
MutablePropertyValues newPvs = new MutablePropertyValues(pvs);
// Add property values based on autowire by name if applicable.
if (resolvedAutowireMode == AUTOWIRE_BY_NAME) {
autowireByName(beanName, mbd, bw, newPvs);
}
// Add property values based on autowire by type if applicable.
if (resolvedAutowireMode == AUTOWIRE_BY_TYPE) {
autowireByType(beanName, mbd, bw, newPvs);
}
pvs = newPvs;
}
boolean hasInstAwareBpps = hasInstantiationAwareBeanPostProcessors();
boolean needsDepCheck = (mbd.getDependencyCheck() != AbstractBeanDefinition.DEPENDENCY_CHECK_NONE);
PropertyDescriptor[] filteredPds = null;
if (hasInstAwareBpps) {
if (pvs == null) {
pvs = mbd.getPropertyValues();
}
for (BeanPostProcessor bp : getBeanPostProcessors()) {
if (bp instanceof InstantiationAwareBeanPostProcessor) {
InstantiationAwareBeanPostProcessor ibp = (InstantiationAwareBeanPostProcessor) bp;
PropertyValues pvsToUse = ibp.postProcessProperties(pvs, bw.getWrappedInstance(), beanName);
if (pvsToUse == null) {
if (filteredPds == null) {
filteredPds = filterPropertyDescriptorsForDependencyCheck(bw, mbd.allowCaching);
}
pvsToUse = ibp.postProcessPropertyValues(pvs, filteredPds, bw.getWrappedInstance(), beanName);
if (pvsToUse == null) {
return;
}
}
pvs = pvsToUse;
}
}
}
if (needsDepCheck) {
if (filteredPds == null) {
filteredPds = filterPropertyDescriptorsForDependencyCheck(bw, mbd.allowCaching);
}
checkDependencies(beanName, mbd, filteredPds, pvs);
}
if (pvs != null) {
applyPropertyValues(beanName, mbd, bw, pvs);
}
}
这个方法非常地长,就不带大家一句一句看了,感兴趣的同学可以自己翻阅一下源码。
Bean的销毁过程
销毁过程就非常简单了,当调用容器的close方法时,Spring就会自动去调用Bean的销毁方法实现销毁逻辑。
Bean的生命周期(详细)
以上内容只是对Bean生命周期的一个大概介绍,实际上, Spring提供了非常多的扩展点穿插在整个生命周期中,具体流程如下:
创建Bean实例 调用Bean中的setter()方法设置属性值 检查Bean是否实现了Aware接口,若实现了,则调用对应的接口方法 若容器中有BeanPostProcessor,则调用其postProcessAfterInitialization 检查Bean是否实现了InitializingBean,若实现了,则调用其afterPropertiesSet方法 检查是否指定了Bean的init-method属性,若指定了,则调用其指定的方法 若容器中有BeanPostProcessor,则调用其postProcessorAfterInitialization 检查Bean是否实现了DisposableBean,若实现了,则调用其方法 检查是否指定了Bean的destroy-method属性,若指定了,则调用其指定的方法
我们可以来测试一下:
public class User implements ApplicationContextAware, InitializingBean, DisposableBean {
private String name;
private Integer age;
public User() {
System.out.println("1--》创建User实例");
}
public void setName(String name) {
this.name = name;
System.out.println("2--》设置User的name属性");
}
public void setAge(Integer age) {
this.age = age;
System.out.println("2--》设置User的age属性");
}
public void init() {
System.out.println("6--》调用init-method属性指定的方法");
}
public void myDestroy() {
System.out.println("9--》调用destroy-method属性指定的方法");
}
@Override
public void setApplicationContext(ApplicationContext applicationContext) throws BeansException {
System.out.println("3--》调用对应Aware接口的方法");
}
@Override
public void afterPropertiesSet() throws Exception {
System.out.println("5--》调用InitializingBean接口的afterPropertiesSet方法");
}
@Override
public void destroy() throws Exception {
System.out.println("8--》调用DisposableBean接口的destroy方法");
}
}
这个Bean实现了Spring提供的一些扩展点,包括ApplicationContextAware、InitialzingBean、DisposableBean等,所以我们来编写一个Bean的后置处理器:
public class MyBeanPostProcessor implements BeanPostProcessor {
@Override
public Object postProcessAfterInitialization(Object bean, String beanName) throws BeansException {
System.out.println("7--》调用MyBeanPostProcessor的postProcessBeforeInitialization方法");
return BeanPostProcessor.super.postProcessAfterInitialization(bean, beanName);
}
@Override
public Object postProcessBeforeInitialization(Object bean, String beanName) throws BeansException {
System.out.println("4--》调用MyBeanPostProcessor的postProcessAfterInitialization方法");
return BeanPostProcessor.super.postProcessBeforeInitialization(bean, beanName);
}
}
最后将它们注册到容器中,并且指定Bean对应的初始化和销毁方法:
@Configuration
public class MyBeanConfig {
@Bean(initMethod = "init", destroyMethod = "myDestroy")
public User user() {
User user = new User();
user.setName("zs");
user.setAge(30);
return user;
}
@Bean
public BeanPostProcessor beanPostProcessor() {
return new MyBeanPostProcessor();
}
}
运行结果如下:
1--》创建User实例
2--》设置User的name属性
2--》设置User的age属性
3--》调用对应Aware接口的方法
4--》调用MyBeanPostProcessor的postProcessAfterInitialization方法
5--》调用InitializingBean接口的afterPropertiesSet方法
6--》调用init-method属性指定的方法
7--》调用MyBeanPostProcessor的postProcessBeforeInitialization方法
8--》调用DisposableBean接口的destroy方法
9--》调用destroy-method属性指定的方法
正如我们预想的那样,Spring依次调用了每个扩展点,熟悉了整个Bean的生命周期和扩展点之后,我们就能够在每个阶段做我们想做的事情,实现业务的定制化。